We asked Smalley marketing engineer Justyna Rapacz to fill us in on the design of wave springs and their utility to engineers designing products. We turned to Smalley as the inventor of the edge wound ...

Wave springs come in a variety of configurations, dimensions, and materials to deliver precise spring force in up to 50% less axial space than traditional coiled springs in the aerospace, automotive, ...

Artificial intelligence is colliding with a hard physical limit: the energy and heat of today’s silicon-based chips. As ...

Discover the power of wave springs and their diverse varieties. This guide covers their functionality, manufacturing process, and wide-ranging applications. Learn how edgewound wave springs optimize ...

The study of wave propagation in viscoelastic and piezoelectric materials is pivotal in advancing modern sensor and actuator technologies. Viscoelastic materials, which display both viscous flow and ...

Tapered roller bearings can be fixed and preloaded using shims and an end cap. There is a setting procedure to ensure the desired preload is achieved and the amount of end play (axial clearance) is ...

Understanding the way a wave moves through granular materials—after an earthquake, for example—has vast implications for modern science. After all, scientists use stress wave propagation through ...

D-Wave Quantum Inc. (NYSE: QBTS) today announced a quantum advance published in the journal Science, confirming that its annealing quantum computer outperformed one of the world’s most powerful ...

Stress wave propagation through grainy, or granular, materials is important for detecting the magnitude of earthquakes, locating oil and gas reservoirs, designing acoustic insulation and designing ...